The overarching project goal is to advance the design of opportunistic state-triggered aperiodic controllers for networked cyber-physical systems. This poster considers the problem of opportunistic human-robot collaboration to solve multi-objective optimization problems. We consider scenarios where a human decision maker works with a robot in a supervisory manner in order to find the best Pareto solution to a given optimization problem. The human has a time-invariant function that represents the value she gives to the different outcomes.
This project combines Cyber Physical Systems (CPS) and gigabit networks to address major health concerns due to air pollution. A wide range of health outcomes are affected by air pollution. In March 2014 the World Health Organization (WHO) released a report that in 2012 alone, a staggering 7 million people died as a result of air pollution exposure, one in eight of the total global deaths. A major component of this pollution is airborne particulate matter. Approximately 50 million Americans have allergic diseases.
Organized by U.Lisboa on behalf of Ada-Europe, in cooperation with ACM SIGAda, SIGBED (pending), SIGPLAN (pending) and the Ada Resource Association (ARA)
Submitted by Anonymous on Wed, 11/08/2017 - 1:49pm
1st International Workshop on Time Critical Cyber Physical Systems (TC-CPS 2018)
As digital computing and communication become faster, cheaper and less power consuming, these capabilities are increasingly embedded in many objects and structures in the physical environment. Cyber-Physical Systems (CPS) are co-engineered interacting networks of physical and computational components. These systems will provide the foundation of our critical infrastructure, form the basis of emerging and future smart services, and improve our quality of life in many areas.
